CD4+ T cell count and HIV-1 viral load dynamics positively impacted by H. pylori infection in HIV-positive patients regardless of ART status in a high-burden setting

Background There is a widespread co-infection of HIV and Helicobacter pylori (H. pylori) globally, particularly in developing countries, and it has been suggested that this co-infection may affect the course of HIV disease. However, the interplay between H. pylori infection and HIV disease progression is not fully elucidated. In this study, we investigated the effect of H. pylori co-infection on CD4+ T cell count and HIV viral load dynamics in HIV-positive individuals in a high co-endemic setting. Methods A comparative cross-sectional study was conducted among 288 HIV-positive and 175 HIV-negative individuals, both with and without H. pylori infection. Among HIV-positive participants, 195 were on antiretroviral therapy (ART) and 93 were ART-naïve. CD4+ T cell count and HIV-1 viral load were measured and compared between H. pylori-infected and -uninfected individuals, taking into account different HIV and ART status. Result Our study demonstrated that individuals infected with H. pylori had a significantly higher CD4+ T cell count compared to uninfected controls among both HIV-negative and HIV-positive participants, regardless of ART therapy. Conversely, HIV/H. pylori co-infected participants had lower HIV-1 viral load than those without H. pylori infection. Linear regression analysis further confirmed a positive association between H. pylori infection, along with other clinical factors such as BMI, ART, and duration of therapy, with CD4+ T cell count while indicating an inverse relationship with HIV-1 viral load in HIV-positive patients. Additionally, factors such as khat chewing, age and WHO clinical stage of HIV were associated with reduced CD4+ T cell count and increased HIV-1 viral load. Conclusion Our study demonstrates that H. pylori co-infection was associated with higher CD4+ T cell count and lower HIV-1 viral load in HIV-positive patients, regardless of ART status. These findings show a positive effect of H. pylori co-infection on the dynamics of HIV-related immunological and virological parameters. Further studies are needed to elucidate the underlying mechanisms of the observed effects. Supplementary Information The online version contains supplementary material available at 10.1186/s40001-024-01750-6.


Introduction
Human immunodeficiency virus (HIV) infection remains to be one of the public health problems globally, particularly in developing countries.In 2022, approximately 39 million people globally were living with HIV, and twothirds of these people live in sub-Saharan Africa [1].Of these, 630,000 people died from AIDS and related illnesses in 2022.HIV is a virus that attacks the immune system, specifically targeting CD4 + T cells and progressively weakening the host's ability to protect itself from opportunistic infections [2].Following infection, the virus undergoes replication that leads to a progressive loss of CD4 + T cells.Thus, as the HIV infection progresses, the number of CD4 + T cells in the body gradually decreases [3].Acquired immunodeficiency syndrome (AIDS) is the most advanced stage of the disease that is associated with higher HIV viral load and low CD4 + T cell count.Hence, when CD4 + T cell count starts to decline, HIVinfected individuals receive antiretroviral therapy (ART) to ensure immune recovery and prevent the depletion of more CD4 + T cells [4].HIV viral load testing is crucial for monitoring HIV treatment and achieving HIV viral suppression.The World Health Organization (WHO) has identified three viral load thresholds for HIV viral suppression: unsuppressed (> 1000 copies/mL), suppressed (detected but < 1000 copies/mL), and undetectable (viral load not detected by test method) [5].High adherence to ART is essential for achieving HIV viral suppression and ultimately reaching the goal of having an undetectable viral load.
The gastrointestinal tract (GIT) plays an important role in the clinical pathology and immunopathogenesis of HIV infection as it is the major site of HIV infection and early viral replication [6].More than half of HIV-infected individuals present GIT symptoms and complications [7,8].H. pylori infection has been implicated to cause both protective and deleterious effects in human health and diseases [9,10].It has been suggested that HIV/H.pylori co-infections may affect the course of HIV disease progression.H. pylori infection is common in HIV-positive patients, especially in developing countries where both infections are prevalent, although there are conflicting findings on the prevalence of H. pylori infection in HIVpositive patients compared to HIV-negative individuals [11][12][13][14][15][16][17].H. pylori is a bacterium that can colonize the lining of the gastric and duodenal mucosa and has been associated with a range of gastrointestinal diseases, including gastritis and ulcers [18].H. pylori infection induces local and systemic immune responses involving a variety of immune cells, including dendritic cells (DCs), CD4 + Th1, CD4 + Th17 and regulatory T (Treg) cells [19], and these cells also play key roles in the immunopathogenesis of HIV.Nevertheless, the association between H. pylori infection and HIV disease progression is not fully elucidated.
In this study, we investigated the effect of H. pylori coinfection on the dynamics of HIV-related immunological and virological parameters in Ethiopia, where more than half of the population is infected with H. pylori according to a recent meta-analysis [20].The present study demonstrated that H. pylori infection was significantly associated with higher CD4 + T cell counts and lower HIV viral loads in HIV-positive patients in a high co-endemic setting.Understanding the immunological dynamics of co-infection between HIV and H. pylori may provide valuable insights into improving ART efficacy and exploring alternative treatment approaches that could benefit individuals living with HIV/AIDS.

Study design and participants
In this comparative cross-sectional study, study participants were recruited from randomly selected four health facilities in and around Mekelle city, Ethiopia (Mekelle General Hospital, Mekelle Health Center, Semen Health Center, and Quiha General Hospital) from June to September 2020.The recruitment and enrollment of study participants are summarized in Fig. 1.A total of 463 adult participants were consecutively recruited in this study by their attending clinicians.Volunteer participants with active tuberculosis, hepatitis, malaria, diabetes mellitus, co-infection with intestinal parasites, history of chronic disorders other than HIV and immune suppressive drugs, under 18 years old, and those who had taken anti-H.pylori therapy within two weeks of recruitment were excluded from the study.Enrolled study participants comprise both HIV-negative and HIV-positive Fig. 1 Flowchart of the enrollment of participants in this study individuals with and without ART therapy.Stool samples were collected from all participants for screening H. pylori infection.Thus, study participants were categorized into six groups based on to their clinical and treatment status (HIV, ART, and H. pylori status) to compare the effect of H. pylori co-infection on immune parameters in HIV-positive patients with and without ART.HIV-negative volunteers were also included in the study as controls.

Data collection and laboratory examination
Socio-demographic and clinical data were collected by trained study personnel using a standardized questionnaire.Other routine clinical and laboratory parameters, including HIV status, WHO clinical stages, and ART status of the study participants, were also documented from medical records.The blood samples were collected from participants in an EDTA-containing tube for CD4 + T cell count and HIV viral load determination, and the stool samples were collected for screening H. pylori infection.HIV-1 and 2 antibody testing was also performed in certain groups to include HIV-negative participants.

Screening H. pylori infection
The fecal samples collected from the study participants were utilized to screen for H. pylori infection using the OneStep H. pylori Antigen RapiCard ™ InstaTest (Cortez Diagnostics, CA).The rapid test was performed according to the kit's instruction.

CD4 + T cell count determination
Absolute CD4 + T cell count (cells/µL) was analyzed using a Becton Dickinson (BD) FACSCPresto ™ cell analyzer (BD, USA) at the Tigray Health Research Institute (THRI), following the established standard operating procedure (SOP).

Statistical analysis
Data were entered and analyzed using SPSS 20.0 and GraphPad Prism 8.0.2.Descriptive statistics were used to describe the socio-demographic and clinical data.The normality of the data was assessed by D' Agostino and Pearson test, as well as Kolmogorov-Smirnov test.Parametric data were compared using an unpaired t-test and data are presented as mean ± standard deviation (SD).For non-Gaussian distributed data, non-parametric Mann-Whitney were used to compare two groups, and data are presented as median with interquartile range (IQR).Spearman's correlation (r s ) was used to determine the correlation between two continuous variables.Linear regression tests were used to determine the association between H. pylori infection and other possible risk factors, and the CD4 + T cell count or the HIV-1 viral load.Regression coefficient (β) and 95% confidence intervals (CI) were determined to assess the strength of associations and statistical significance.Factors with a p value ≤ 0.05 by the linear regression tests were included in the multiple regression analysis model.p ≤ 0.05 were considered statistically significant.

Socio-demographic characteristics
The socio-demographic characteristics of the study participants are presented in Table 1.There were an equal proportion of male and female participants in this study, and nearly half of the H. pylori-infected participants being female in both HIV-positive and HIV-negative groups.The study participants ranged in age from 18 to 74 years, with a mean age of 37.2 years, and the majority fell within the 31-50 years age category in all four of group participants.Majority of the study participants were resident of urban areas (369/463, 79.7%), single (234/463, 50.5%) and had normal BMI (298/463, 64.4%) with similar proportions observed across all four groups regardless of HIV and H. pylori infection status.Interestingly, HIV/H.pylori co-infected individuals had a lower mean BMI (18.2 ± 2.4) compared to those with only H. pylori infection (21.9 ± 2.5).Most of the study participants had an education level of elementary school or less with virtually similar proportions among the four groups, while 53.1% (246/463) were employed and 42.1% (195/463) had low monthly income (Table 1).

Characteristics of clinical, immunological, and virological parameters
The clinical severity of HIV infection among the HIVpositive participants was determined based on WHO guidelines.Nearly half of them (137/288, 47.6%) were categorized as clinical stage I, with around one-third (90/288, 31.3%)classified as stage II (Table 2).The remaining participants were classified as stage III and IV.
We found that most of both HIV/H.pylori co-infected (81/125, 64.8%) and non-co-infected HIV-positive participants (114/163, 69.9%) were on ART therapy, with the remaining being ART-naïve.The duration of ART ranged from 6 months to 20 years, with a mean (± SD) duration of 3.2 years (± 2.5), and the majority of participants (122/195, 62.6%) received therapy for less than 3 years (Table 2).

H. pylori infection was associated with higher CD4 + T cell count and lower HIV-1 viral load in HIV/H. pylori co-infected patients
To investigate the effect of H. pylori infection on immunological and virological parameters dynamics, we compared CD4 + T cell count and HIV-1 viral load between H. pylori infected and uninfected participants.The present study found that H. pylori-infected patients had significantly higher CD4 + T cell count compared to those without H. pylori infection in both HIV-positive (mean ± SD; 405 ± 193 versus 318 ± 180; p = 0.0006) and HIV-negative (870 ± 124 versus 794 ± 66; p = 0.0024) participants (Fig. 2A).The association between H. pylori infection and higher CD4 + T cell count remained consistent across ART-naïve (p = 0.002) and ART-received (p = 0.0406) HIV-positive participants (Fig. 2B).Thus, this study provides evidence supporting the association between H. pylori infection and higher CD4 + T cell counts in HIVpositive participants, regardless of ART status.In addition, we assessed the association of H. pylori infection with HIV-1 viral load among HIV-positive participants.Interestingly, HIV-positive individuals co-infected with H. pylori [median (IQR); 9240 copies/ mL (149-111,175)] had significantly lower viral load compared to those without H. pylori infection [21,271 copies/mL (219-246,895)], p = 0.0356 (Fig. 3A).This lower HIV-1 viral load level associated with H. pylori infection was also evident in both ART-naïve and ARTreceived groups.Specifically, in the ART-naïve participants, those infected with H. pylori had a substantially lower HIV-1 viral load [median (IQR); 104,919 copies/mL (9911-340,043)] compared to those who were not infected [224,472 copies/mL (21,888-442,686)], p = 0.0268.Among those who received ART, the median HIV-1 viral load in H. pylori-infected individuals [149 copies/mL (IQR: 75 -3,409)] was lower than in those uninfected participants [287 copies/mL (IQR: 94-18,613)], although the difference was not statistically significant (p = 0.0536) (Fig. 3B).

Association of socio-demographic and clinical factors with CD4 + T cell count and HIV-1 viral load
We further assessed the association of socio-demographic, economic and clinical factors with CD4 + T cell count and HIV-1 viral load parameters in HIV-positive or -negative individuals using a simple and multiple linear regression analysis and presented them in Tables 3 and 4, respectively.Socio-demographic factors, such as gender, residence area, marital status or occupation showed no significant association with CD4 + T cell count (Table 3) or HIV-1 viral load levels (Table 4) in HIV-positive individuals.Intriguingly, linear regression analysis demonstrated that khat chewing, a psychoactive substances, was associated with lower CD4 + T cell count [unadjusted β (95% CI), − 132.8 (− 222.6-− 43.0); p = 0.004] and higher HIV-1 viral loads [unadjusted β (95% CI), 146,158 (18,335), p = 0.025] in HIV-positive patients, while alcohol drinking and smoking showed no association with CD4 + T cell count and HIV-1 viral load regardless of HIV status.Clinical factors, such as BMI, ART status, and duration of therapy, were associated with higher CD4 + T cell count and lower HIV-1 viral load (Tables 3 and 4).Conversely, the WHO clinical HIV stage was negatively associated with CD4 + T cell count and positively related to viral load among HIV-positive individuals (Tables 3 and 4).

Discussion
H. pylori infection is often considered a disease of poverty as it is associated with poor hygiene and sanitation conditions and is more prevalent in low-income and developing countries where HIV infection is rampant.We found that H. pylori infection rate was higher in HIV-positive patients compared to HIV-negative controls although several other studies reported a lower H. pylori infection prevalence in HIV-positive patients than HIV-negative individuals [11][12][13][14].The present study investigated the effect of H. pylori infection on CD4 + T cell counts and HIV viral load levels, which are the most important and widely used predictors of progression to AIDS [22], among people infected with HIV in a high co-endemic setting.Lower CD4 + T cell count and higher viral loads are generally associated with more advanced stages of HIV infection and increased risk of opportunistic infections and other complications.ART, which is the standard treatment for HIV infection, suppresses viral replication, exert immune restoration, and stall the progression of HIV to AIDS [4,23,24], demonstrating the positive health outcomes of ART among people living with HIV.Interestingly, this study demonstrates that H. pylori co-infection was positively associated with elevated CD4 + T cell counts and reduced HIV viral load in HIV-positive patients, consistent with a previous study [25].The favorable immunological and virological parameters in relation to H. pylori positivity persisted among individuals who initiated ART.
The inverse correlation between H. pylori infection and immunosuppression among HIV-positive patients has become a subject of scientific interest.Several theories and mechanisms have been proposed to explain this association, although the precise mechanisms are not fully understood.Firstly, H. pylori, as its immune evasion strategy, interferes with T cell activation to maintain its persistence and pathogenesis in the gastric and intestinal mucosa [26][27][28][29].Persistent activation of CD4 + T cells contributes to progressive loss of CD4 + T cells during HIV infection.Increased immune activation markers have also been observed in HIV-positive patients receiving ART, despite suppression of viral replication and CD4 + T cell reconstitution [30].Thus, the diminished CD4 + T cell activation during H. pylori infection may affect susceptibility of target cells for HIV infection, slowing replication and distribution of the virus.This suggest that H. pylori infection plays a protective role against HIV infection through a mechanism different from that of ART.
The immune response to H. pylori is predominantly CD4 + Th1 or CD4 + Th17-mediated inflammatory responses [19,31].However, this host immune response is unable to clear the bacteria, resulting in a lifelong persistence.The underlying regulatory mechanism of its lifelong H. pylori colonization in the human stomach could involve production of Treg cells.H. pylori actively targets DCs and interferes its maturation and antigen presentation in a way that promotes the generation of Treg cells in the gut-associated lymphoid tissue (GALT) [19,32,33].These Treg cells secrete cytokines that inhibits CD4 + Th1 or CD4 + Th17 effector functions [33].In individuals infected with H. pylori, gastric lymphocytes exhibit elevated production of IL-10 while displaying reduced levels of IFN-γ compared to those not infected with H. pylori [34,35].Moreover, several studies reported the protective   immunomodulatory properties of H. pylori against allergic asthma [36][37][38] and chronic inflammatory disorder [9,38].H. pylori infection inhibits these chronic disorders by targeting DCs and regulating the ratio between the pro-inflammatory CD4 + Th1 and CD4 + Th17 cells, and the tolerogenic Treg cells [38][39][40].This indicates that H. pylori might employ immune evasion mechanism that could be beneficial in fighting against other chronic infection and disorders.Several socio-demographic and clinical factors were related to immunological and virological parameters in HIV-positive patients.Clinical factors such as BMI, ART status, and duration of therapy were positively associated with CD4 + T cell count while inversely related to HIV-1 viral load in HIV-positive patients.The use of ART is associated with CD4 + T cells recovery in HIV-positive patients and the change rate increased with duration of therapy [41].Age and WHO clinical stage of HIV were negatively associated with reduced CD4 + T cell count and increased HIV-1 viral load, consistent with other studies [42].Interestingly, the habit of khat chewing had a deleterious effect on the CD4 + T cell count and HIV-1 viral load dynamics of HIV-positive individuals.

Conclusion
This study demonstrated that H. pylori infection correlates with higher CD4 + T count and lower HIV-1 viral load, demonstrating favorable immunological and virological parameters in HIV-positive individuals regardless of ART therapy.These findings contribute to our understanding of the intricate interplay between HIV, H. pylori and the immune system.Nevertheless, further studies are needed to investigate the precise mechanisms underlying these interactions and the prospect of potential therapeutic approaches.

Fig. 3
Fig. 3 Effect of H. pylori infection on HIV-1 viral load level.A Comparison of HIV-1 viral load between H. pylori-negative (HP−) and-positive (HP +) groups among HIV-positive (HIV +) study participants.B Comparison of HIV-1 viral load between HP-and HP + groups among ART-Naïve or on ART HIV-positive participants.n = 44 per group.Median HIV-1 viral loads (copies/mL) with interquartile range (IQR) are shown.p values between the two groups were determined using the Mann-Whitney test; *p < 0.05

H
. pylori Helicobacter pylori, HIV human immunodeficiency virus, ART antiretroviral therapy, β regression coefficient, CI confidence interval, 1 = reference category a Linear regression analysis b Multiple regression adjusted for factors with p value ≤ 0.05 by linear regression analysis

Table 1
Socio-demographic and clinical characteristics of the study participants HP H. pylori, HIV human immunodeficiency virus, BMI body mass index, SD standard deviation

Table 2
Clinical, immunological, and virological parameters of the study participants HIV human immunodeficiency virus, ART anti-retroviral therapy, SD standard deviation, IQR interquartile range

Table 4
Linear regression analysis of factors associated with HIV-1 viral load among HIV-positive participants H. pylori, Helicobacter pylori, HIV human immunodeficiency virus.ART antiretroviral therapy, β regression coefficient, CI confidence interval; 1 = reference category a Linear regression analysis b Multiple regression adjusted for factors with p value ≤ 0.05 by linear regression analysisVariablesNo. (%)